Support arm device

ABSTRACT

A support arm device includes a joint unit, an arm unit, and an outer shell. The joint unit includes two spaced-apart joint seats. Each joint seat has two curved joining members that are opposite to each other. The arm unit is pivotally connected between the joint seats. The outer shell is flexible, and includes two side walls disposed respectively at opposite lateral sides of the joint seats, and a top wall interconnecting top ends of the side walls. Each side wall has a first docking portion engaging concentrically and rotatably a respective one of the joint members of one of the joint seats, and a second docking portion engaging concentrically and rotatably a respective one of the joint members of the other one of the joint seats.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims priority of Taiwanese Patent Application No.107129166, filed on Aug. 21, 2018.

FIELD

The disclosure relates to a support arm device, more particularly to asupport arm device with an outer shell.

BACKGROUND

Referring to FIGS. 1 and 2, a conventional support arm device 9 isadapted to suspend an object, such as a display. The conventionalsupport arm device 9 includes two arm members 91, an endcap member 92, aconnecting member 93, an extension and retraction mechanism 94 disposedin between the arm members 91, and two cover plates 95 (only one isvisible in FIG. 1) flanking the arm members 91 and covering a gapbetween the two arm members 91. The arm members 91 are pivotallyconnected to the endcap member 92 and the connecting member 93, forminga four-bar linkage. Two ends of each of the cover plates 95 arerespectively and pivotally connected to the endcap member 92 and theconnecting member 93 along with the arm members 91. The cover plates 95shield the extension and retraction mechanism 94 and improve theaesthetic of the conventional support arm device 9.

The conventional support arm device 9 uses the arm members 91 to supportthe object, and the extension and retraction mechanism 94 to carry theload of the object so that the object may be fixed at a desiredposition.

The cover plates 95 are disposed in the arm members 91 and abut againstinner surfaces of the arm members 91, thus it is difficult to align thecover plates 95 with the arm members 91 when assembling the conventionalsupport arm device 9. Further, the cover plates 95 do not cover theintersections of the arm members 91, the endcap member 92 and theconnecting member 93.

SUMMARY

Therefore, the object of the disclosure is to provide a support armdevice that can alleviate at least one of the drawbacks of the priorart.

According to the disclosure, a support arm device includes a joint unit,an arm unit, and an outer shell.

The joint unit includes two spaced-apart joint seats. Each of the jointseats has two curved joining members that are opposite to each other.

The arm unit is pivotally connected between the joint seats.

The outer shell is flexible and includes two spaced-apart side wallsthat are disposed respectively at opposite lateral sides of the jointseats and the arm unit, and a top wall that interconnects top ends ofthe side walls. Each of the side walls has a first docking portion thatengages concentrically and rotatably a respective one of the jointmembers of one of the joint seats, and a second docking portion thatengages concentrically and rotatably a respective one of the jointmembers of the other one of the joint seats.

BRIEF DESCRIPTION OF THE DRAWINGS

Other features and advantages of the disclosure will become apparent inthe following detailed description of the embodiment with reference tothe accompanying drawings, of which:

FIG. 1 is a perspective view of a conventional support arm device;

FIG. 2 is a sectional view of the conventional support arm device;

FIG. 3 is an exploded perspective view of an embodiment of a support armdevice according to the disclosure;

FIG. 4 is a partly exploded perspective view of the embodiment;

FIG. 5 is an assembled perspective view of the embodiment;

FIG. 6 is a sectional view of the embodiment;

FIG. 7 is a sectional view taken along line VII-VII in FIG. 6;

FIG. 8 is a sectional view taken along line VIII-VIII in FIG. 6; and

FIG. 9 is a fragmentary sectional view taken along line IX-IX in FIG. 8.

DETAILED DESCRIPTION

Referring to FIGS. 3, 4, and 5, an embodiment of a support arm deviceaccording to the disclosure is adapted for supporting an object 1 (e.g.a screen, as shown in FIG. 6) and includes a joint unit 2, an arm unit3, and an outer shell 4.

Referring further to FIG. 9, the joint unit 2 includes two spaced-apartjoint seats 21. Each of the joint seats 21 has two curved joiningmembers 211 that are opposite to each other, and a curved member 212distal from the arm unit 3 and having opposite lateral ends that arerespectively connected to the joining members 211. Each of the joiningmembers 211 has a first curved segment 213 and a second curved segment214 being concentric with the first curved segment 213. The first andsecond curved segments 213, 214 cooperatively define a curved groove 20.A radian of the first curved segment 213 is larger than that of thesecond curved segment 214. The radian of the first curved segment 213ranges between π/3 and π. In this embodiment, the radian of the firstcurved segment 213 is π/3. For each of the joint seats 21, the firstcurved segment 213 of each of the joining members 211 has an upper edge215 cooperating with the curved member 212 to define an upper gap 210,and a lower edge 215′ circumferentially opposite to the upper edge 215and cooperating with the curved member 212 to define a lower gap 210′.

Referring to FIGS. 3, 4, and 6, the arm unit 3 is pivotally connectedbetween the joint seats 21 and includes upper and lower support arms 31,31′. Each of the upper and lower support arms 31, 31′ has opposite armends 311, 311′ that are respectively and pivotally connected to thejoint seats 21, such that the upper and lower support arms 31, 31′ andthe joint seats 21 cooperatively form a four-bar linkage. One of the armends 311 of the upper support arm 31 extends into the upper gaps 210 ofone of the joint seats 21, and the other one of the arm ends 311 of theupper support arm 31 extends into the upper gaps 210 of the other one ofthe joint seats 21. One of the arm ends 311′ of the lower support arm31′ extends into the lower gaps 210′ of one of the joint seats 21, andthe other one of the arm ends 311′ of the lower support arm 31′ extendsinto the lower gaps 210′ of the other one of the joint seats 21.

Referring to FIGS. 4, 5, 8, and 9, the outer shell 4 is flexible,extends along a lengthwise direction (X), and includes two spaced-apartside walls 41 that are disposed respectively at opposite lateral sidesof the joint seats 21 and the arm unit 3, and a top wall 42 thatinterconnects top ends of the side walls 41. The side walls 41 and thetop wall 42 cooperatively define a channel 40. Each of the side walls 41of the outer shell 4 covers at least a portion of the upper support arm31 and at least a portion of the lower support arm 31′, and has a firstdocking portion 412 and a second docking portion 412′.

The first docking portion 412 of each of the side walls 41 is annularand engages concentrically and rotatably the curved groove 20 of arespective one of the joining members 211 of the one of the joint seats21. Likewise, the second docking portion 412′ of each of the side walls41 is annular and engages concentrically and rotatably the curved groove20 of a respective one of the joining members 211 of the other one ofthe joint seats 21.

In this embodiment, each of the side walls 41 of the outer shell 4further has first and second ear end sections 411, 411′ that arearranged in the lengthwise direction (X) and that respectively have thefirst and second docking portions 412, 412′. The first ear end sections411 of the side walls 41 cover respectively opposite lateral sides ofone of the joint seats 21. The second ear end sections 411′ of the sidewalls 41 cover respectively opposite lateral sides of the other one ofthe joint seats 21. Each of the first and second ear end sections 411,411′ further has a circular wall 413 spaced apart from a respective oneof the joint seats 21.

The top wall 42 has two edges 421 spaced apart in the lengthwisedirection (X). One of the edges 421 of the top wall 42 cooperates withthe first docking portions 412 of the side walls 41 to define a firstcurved opening 410 that is in communication with the channel 40 and thatexposes the one of the joint seats 21. The other one of the edges 421 ofthe top wall 42 cooperates with the second docking portions 412′ of theside walls 41 to define a second curved opening 410′ that is incommunication with the channel 40 and that exposes the other one of thejoint seats 21.

In this embodiment, the outer shell 4 is made of a plastic material thatis flexible. It should be noted that the material of the outer shell 4is not limited to being plastic, and may be any material that isflexible, e.g. metal.

In order to install the outer shell 4, one only needs to align thechannel 40 with the arm unit 3 and the joint unit 2, and press the outershell 4 against the arm unit 3 and the joint unit 2. Since the outershell 4 is flexible, the side walls 41 thereof would be pushed outwardsby the arm unit 3 and the joint unit 2 such that the arm unit 3 and thejoint unit 2 can be inserted into the channel 40. In this embodiment,the side walls 41 cover the upper support arm 31 and a portion of thelower support arm 31′.

After installation, the first and second docking portions 412, 412′ ofthe side walls 42 rotatably surrounds the corresponding first curvedsegments 213 and are engaged rotatably with the corresponding curvedgrooves 20. When an angle between the arm unit 3 and the joint unit 2 ischanged, an angle between the first and second docking portions 412,412′ and the respective one of the joining member 211 is consequentlychanged such that the outer shell 4 may stay at a fixed positionrelative to the arm unit 3. Since the arm ends 311, 311′ of the upperand lower support arms 31, 31′ extend into the corresponding upper andlower gaps 210, 210′ of the joint seats 21, and since the joint seats 21are disposed in the first and second curved openings 410, 410′ of theouter shell 4, the arm unit 3, the joint seats 21, and the outer shell 4do not interfere with each other. Thus, the angle between the arm unit 3and the joint unit 2 may be changed smoothly.

In sum, the advantages of the embodiment are as follows:

1. By making the outer shell 4 out of a flexible material, the structureof the outer shell 4 as well as the installation of the outer shell 4may be simplified.

2. By the rotatable engagement between the first and second dockingportions 412, 412′ and the corresponding joining members 211, when theangle between the arm unit 3 and the joint unit 2 is being changed, theangle between the first and second docking portions 412, 412′ and thejoining members 211 may also change in such a way that the outer shell 4stays in a fixed position relative to the arm unit 3.

3. Not only can the outer shell 4 shield the gap between the upper andlower support arms 31, 31′, the outer shell 4 also shields the lateralsides of the joint seats 21, improving the aesthetic of the support armdevice.

In the description above, for the purposes of explanation, numerousspecific details have been set forth in order to provide a thoroughunderstanding of the embodiment. It will be apparent, however, to oneskilled in the art, that one or more other embodiments may be practicedwithout some of these specific details. It should also be appreciatedthat reference throughout this specification to “one embodiment,” “anembodiment,” an embodiment with an indication of an ordinal number andso forth means that a particular feature, structure, or characteristicmay be included in the practice of the disclosure. It should be furtherappreciated that in the description, various features are sometimesgrouped together in a single embodiment, figure, or description thereoffor the purpose of streamlining the disclosure and aiding in theunderstanding of various inventive aspects, and that one or morefeatures or specific details from one embodiment may be practicedtogether with one or more features or specific details from anotherembodiment, where appropriate, in the practice of the disclosure.

While the disclosure has been described in connection with what isconsidered the exemplary embodiment, it is understood that thisdisclosure is not limited to the disclosed embodiment but is intended tocover various arrangements included within the spirit and scope of thebroadest interpretation so as to encompass all such modifications andequivalent arrangements.

What is claimed is:
 1. A support arm device comprising: a joint unitincluding two spaced-apart joint seats, each of said joint seats havingtwo curved joining members that are opposite to each other; an arm unitpivotally connected between said joint seats; and an outer shell beingflexible and including two spaced-apart side walls that are disposedrespectively at opposite lateral sides of said joint seats and said armunit, each of said side walls having a first docking portion thatengages concentrically and rotatably a respective one of said jointmembers of one of said joint seats, and a second docking portion thatengages concentrically and rotatably a respective one of said jointmembers of the other one of said joint seats, and a top wall thatinterconnects top ends of said side walls.
 2. The support arm device asclaimed in claim 1, wherein: each of said joining members has a firstcurved segment and a second curved segment being concentric with saidfirst curved segment, said first and second curved segmentscooperatively defining a curved groove; said first docking portion ofeach of said side walls engages rotatably said curved groove of therespective one of said joint members of the one of said joint seats; andsaid second docking portion of each of said side walls engages rotatablysaid curved groove of the respective one of said joint members of theother one of said joint seats.
 3. The support arm device as claimed inclaim 2, wherein a radian of said first curved segment is larger thanthat of said second curved segment.
 4. The support arm device as claimedin claim 3, wherein the radian of said first curved segment rangesbetween π/3 and π.
 5. The support arm device as claimed in claim 3,wherein: each of said joint seats further includes a curved memberdistal from said arm unit and having opposite lateral ends that arerespectively connected to said joint members; for each of said jointseats, said first curved segment of each of said joining members has anupper edge cooperating with said curved member to define an upper gap,and a lower edge circumferentially opposite to said upper edge andcooperating with said curved member to define a lower gap.
 6. Thesupport arm device as claimed in claim 5, wherein: said arm unitincludes upper and lower support arms, each of said upper and lowersupport arms having opposite arm ends that are respectively andpivotally connected to said joint seats; one of said arm ends of saidupper support arm extends into said upper gaps of one of said jointseats, and the other one of said arm ends of said upper support armextends into said upper gaps of the other one of said joint seats; oneof said arm ends of said lower support arm extends into said lower gapsof one of said joint seats, and the other one of said arm ends of saidlower support arm extends into said lower gaps of the other one of saidjoint seats; and each of said side walls of said outer shell covers atleast a portion of said upper support arm and at least a portion of saidlower support arm.
 7. The support arm device as claimed in claim 1,wherein: each of said side walls of said outer shell further has firstand second ear end sections having respectively said first and seconddocking portions; said first ear end sections of said side walls coverrespectively opposite lateral sides of one of said joint seats; and saidsecond ear end sections of said side walls cover respectively oppositelateral sides of the other one of said joint seats.
 8. The support armdevice as claimed in claim 7, wherein each of said first and second earend sections further has a circular wall spaced apart from a respectiveone of said joint seats.
 9. The support arm device as claimed in claim7, wherein said outer shell is made of a plastic material.
 10. Thesupport arm device as claimed in claim 7, wherein said side walls andsaid top wall of said outer shell cooperatively define a channel; saidfirst and second ear end sections of each of said side walls arearranged in a lengthwise direction; said top wall has two edges spacedapart in the lengthwise direction; one of said edges of said top wallcooperates with said first docking portions of said side walls to definea first curved opening that is in communication with said channel andthat exposes the one of said joint seats; and the other one of saidedges of said top wall cooperates with said second docking portions ofsaid side walls to define a second curved opening that is incommunication with said channel and that exposes the other one of saidjoint seats.
 11. A support arm device comprising: a joint unit includingtwo spaced-apart joint seats, each of said joint seats having two curvedjoining members that are opposite to each other; an arm unit pivotallyconnected between said joint seats; and an outer shell being flexibleand including two spaced-apart side walls that are disposed respectivelyat opposite lateral sides of said joint seats and said arm unit, each ofsaid side walls having a first docking portion that engagesconcentrically and rotatably a respective one of said joint members ofone of said joint seats, and a second docking portion that engagesconcentrically and rotatably a respective one of said joint members ofthe other one of said joint seats, and a top wall that interconnects topends of said side walls; wherein each of said joining members has afirst curved segment and a second curved segment being concentric withsaid first curved segment, said first and second curved segmentscooperatively defining a curved groove; wherein said first dockingportion of each of said side walls engages rotatably said curved grooveof the respective one of said joint members of the one of said jointseats; and wherein said second docking portion of each of said sidewalls engages rotatably said curved groove of the respective one of saidjoint members of the other one of said joint seats.